The relevance between bacterial populations and human body health is an emerging & popular research. The internationally renowned periodical "Nature & Science" published 2 related researches in 2013 respectively indicating the change of bacterial populations in intestines & stomach, relevance of metabolic diseases, the chemotherapy effects of cancer patients are all associated with the diversification of bacterial populations in intestines & stomach. But conventional bacterial analytic methods can't cover the composition of microorganisms in all environments at once. While the next generation sequencing technology can cover the identification and quantitative determination of all bacterial populations at once thus it has become the new technical trend of bacterial analysis. While when the next generation sequencing technology covers the problems of all bacterial populations at once, new challenges of generated massive bacterial genetic data are derived including the constantly insufficient systematicness of interpretation of analytic results to be difficult in physically applied in clinical applications and individualized medical development. And the genosome analysis of bacterial populations in environment is desperately in need of solutions to computing resource requirements and access problems of GB magnitude. The R&D purpose of this project lies in studies of the professional analytic process and framework of environmental genosome domain as well as the development of more advanced & supplementary computing technologies so as to accelerate domestic R&D of environmental genosome in order to quickly find out the root causes of diseases, and furtherly apply the technology to the treatments of environmental genosome related diseases and develop individualized medical technologies.
技術現況敘述-英文: The relevance between bacterial populations and human body health is an emerging & popular research. The internationally renowned periodical "Nature & Science" published 2 related researches in 2013 respectively indicating the change of bacterial populations in intestines & stomach, relevance of metabolic diseases, the chemotherapy effects of cancer patients are all associated with the diversification of bacterial populations in intestines & stomach. But conventional bacterial analytic methods can't cover the composition of microorganisms in all environments at once. While the next generation sequencing technology can cover the identification and quantitative determination of all bacterial populations at once thus it has become the new technical trend of bacterial analysis. While when the next generation sequencing technology covers the problems of all bacterial populations at once, new challenges of generated massive bacterial genetic data are derived including the constantly insufficient systematicness of interpretation of analytic results to be difficult in physically applied in clinical applications and individualized medical development. And the genosome analysis of bacterial populations in environment is desperately in need of solutions to computing resource requirements and access problems of GB magnitude. The R&D purpose of this project lies in studies of the professional analytic process and framework of environmental genosome domain as well as the development of more advanced & supplementary computing technologies so as to accelerate domestic R&D of environmental genosome in order to quickly find out the root causes of diseases, and furtherly apply the technology to the treatments of environmental genosome related diseases and develop individualized medical technologies.
解答: 謠傳美國正式宣布基因改造食物含有嚴重的毒素,終於爆了。條形碼以〝8 〞開頭的是基因改造食品,連甜玉米、紫地瓜都是基因改造食品,千萬別買別食用!這是真的嗎? 1. 根據國際機構International Service for the Acquisition of Agri-biotech Applications (ISAAA)網站資料(1)查詢可知美國、歐盟、日本等先進國家皆有核准基因改造食品原料。 2. 有關「條形碼以〝8 〞開頭的是基因改造食品 ! 」之謠言,本署業於官網闢謠專區發布澄清(2)。 3. 有關基因改造作物之辨識,如甜玉米、紫地瓜是否為基因改造,行政院農業委員會業於該會官網發布澄清(3),且我國針對基因改造食品已有完整標示規定,不論包裝食品或散裝食品,只要使用基因改造食品原料,皆應正確標示,以保障消費者知的權利。 4. 食藥署提醒民眾,對於這種沒有根據的傳言,應該抱持小心謹慎的態度,不要隨便輕易相信,也避免再轉傳親友。 參考資料: 1. International Service for the Acquisition of Agri-biotech Applications (ISAAA)網站 https://www.isaaa.org/default.asp (另開視窗) 2. 本署闢謠專區105年4月8日發布「最近臉書或是LINE等網路媒體流傳,食品條碼是『8』開頭的就是基改食品,這是真的嗎?」 http://www.fda.gov.tw/TC/newsContent.aspx?cid=5049&id=19822 (另開視窗) 3. 行政院農業委員會104年4月30日發布「甜玉米、紫地瓜是轉基因食品嗎?」http://www.coa.gov.tw/faq/faq_view.php?id=5 (另開視窗)
內容: 解答: 謠傳美國正式宣布基因改造食物含有嚴重的毒素,終於爆了。條形碼以〝8 〞開頭的是基因改造食品,連甜玉米、紫地瓜都是基因改造食品,千萬別買別食用!這是真的嗎? 1. 根據國際機構International Service for the Acquisition of Agri-biotech Applications (ISAAA)網站資料(1)查詢可知美國、歐盟、日本等先進國家皆有核准基因改造食品原料。 2. 有關「條形碼以〝8 〞開頭的是基因改造食品 ! 」之謠言,本署業於官網闢謠專區發布澄清(2)。 3. 有關基因改造作物之辨識,如甜玉米、紫地瓜是否為基因改造,行政院農業委員會業於該會官網發布澄清(3),且我國針對基因改造食品已有完整標示規定,不論包裝食品或散裝食品,只要使用基因改造食品原料,皆應正確標示,以保障消費者知的權利。 4. 食藥署提醒民眾,對於這種沒有根據的傳言,應該抱持小心謹慎的態度,不要隨便輕易相信,也避免再轉傳親友。 參考資料: 1. International Service for the Acquisition of Agri-biotech Applications (ISAAA)網站 https://www.isaaa.org/default.asp (另開視窗) 2. 本署闢謠專區105年4月8日發布「最近臉書或是LINE等網路媒體流傳,食品條碼是『8』開頭的就是基改食品,這是真的嗎?」 http://www.fda.gov.tw/TC/newsContent.aspx?cid=5049&id=19822 (另開視窗) 3. 行政院農業委員會104年4月30日發布「甜玉米、紫地瓜是轉基因食品嗎?」http://www.coa.gov.tw/faq/faq_view.php?id=5 (另開視窗)
The relevance between bacterial populations and human body health is an emerging & popular research. The internationally renowned periodical "Nature & Science" published 2 related researches in 2013 respectively indicating the change of bacterial populations in intestines & stomach, relevance of metabolic diseases, the chemotherapy effects of cancer patients are all associated with the diversification of bacterial populations in intestines & stomach. But conventional bacterial analytic methods can't cover the composition of microorganisms in all environments at once. While the next generation sequencing technology can cover the identification and quantitative determination of all bacterial populations at once thus it has become the new technical trend of bacterial analysis. While when the next generation sequencing technology covers the problems of all bacterial populations at once, new challenges of generated massive bacterial genetic data are derived including the constantly insufficient systematicness of interpretation of analytic results to be difficult in physically applied in clinical applications and individualized medical development. And the genosome analysis of bacterial populations in environment is desperately in need of solutions to computing resource requirements and access problems of GB magnitude. The R&D purpose of this project lies in studies of the professional analytic process and framework of environmental genosome domain as well as the development of more advanced & supplementary computing technologies so as to accelerate domestic R&D of environmental genosome in order to quickly find out the root causes of diseases, and furtherly apply the technology to the treatments of environmental genosome related diseases and develop individualized medical technologies.
技術現況敘述-英文: The relevance between bacterial populations and human body health is an emerging & popular research. The internationally renowned periodical "Nature & Science" published 2 related researches in 2013 respectively indicating the change of bacterial populations in intestines & stomach, relevance of metabolic diseases, the chemotherapy effects of cancer patients are all associated with the diversification of bacterial populations in intestines & stomach. But conventional bacterial analytic methods can't cover the composition of microorganisms in all environments at once. While the next generation sequencing technology can cover the identification and quantitative determination of all bacterial populations at once thus it has become the new technical trend of bacterial analysis. While when the next generation sequencing technology covers the problems of all bacterial populations at once, new challenges of generated massive bacterial genetic data are derived including the constantly insufficient systematicness of interpretation of analytic results to be difficult in physically applied in clinical applications and individualized medical development. And the genosome analysis of bacterial populations in environment is desperately in need of solutions to computing resource requirements and access problems of GB magnitude. The R&D purpose of this project lies in studies of the professional analytic process and framework of environmental genosome domain as well as the development of more advanced & supplementary computing technologies so as to accelerate domestic R&D of environmental genosome in order to quickly find out the root causes of diseases, and furtherly apply the technology to the treatments of environmental genosome related diseases and develop individualized medical technologies.